Focus on Structural Biology 9 Jiapu Zhang Molecular Structures and Structural Dynamics of Prion Proteins and Prions Mechanism Underlying the Resistance to Prion Diseases Focus on Structural Biology Volume 9 Serieseditor RobertKaptein,BijvoetCenterforBiomolecularResearch,UtrechtUniversity, TheNetherlands Moreinformationaboutthisseriesathttp://www.springer.com/series/5990 Jiapu Zhang Molecular Structures and Structural Dynamics of Prion Proteins and Prions Mechanism Underlying the Resistance to Prion Diseases 123 JiapuZhang SchoolofSciencesInformation TechnologyandEngineering TheFederationUniversity Ballarat,VIC,Australia ISSN1571-4853 FocusonStructuralBiology ISBN978-94-017-7317-1 ISBN978-94-017-7318-8 (eBook) DOI10.1007/978-94-017-7318-8 LibraryofCongressControlNumber:2015949386 SpringerDordrechtHeidelbergNewYorkLondon ©SpringerScience+BusinessMediaDordrecht2015 Thisworkissubjecttocopyright.AllrightsarereservedbythePublisher,whetherthewholeorpartof thematerialisconcerned,specificallytherightsoftranslation,reprinting,reuseofillustrations,recitation, broadcasting,reproductiononmicrofilmsorinanyotherphysicalway,andtransmissionorinformation storageandretrieval,electronicadaptation,computersoftware,orbysimilarordissimilarmethodology nowknownorhereafterdeveloped. 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Printedonacid-freepaper SpringerScience+Business MediaB.V.DordrechtispartofSpringerScience+Business Media(www. springer.com) To myparentsChuantingZhang andXian’aiLiu Preface Studies conducted over the past few decades have demonstrated that rabbits are immune to prion diseases (also known as transmissible spongiform encephalopathies(TSEs)).Unlikeconventionalinfectiousdiseases–whichrequire thatamicroorganismbringDNA,RNAorbothintothebody–priondiseasescan be causedbythe body’sownproteinsonly(withoutDNA, RNA or both).Mostly, they attack the brain and other neural tissue and are currently untreatable and universally fatal. High temperature 120(cid:2)130ıC for 4h still cannot kill diseased prions. Creutzfeldt–Jakob disease (CJD), Gerstmann–Sträussler–Scheinker (GSS) syndrome, fatal familial insomnia (FFI) and kuru are the main prion diseases affecting humans. The widely known “mad cow” disease (bovine spongiform encephalopathy(BSE) in cattle), scrapies (“la tremblante” in French language) in sheep and goats, transmissible mink encephalopathy (TME), feline spongiform encephalopathy(FSE),chronicwastingdiseases(CWDs) in elksanddeers,exotic ungulate encephalopathy (EUE), etc. are also diseases of prion nature. These conditions are degenerative,with death occurring several months to several years afterinfection.Prioncontainsno nucleicacids, and itis a misshapenproteinthat acts like an infectious agent. There is no cure and potential treatments are highly speculative. However, a great deal of effort is being expended to find out why rabbitsareimmunetopriondiseases.From2005to2012,molecularbiologistshad already identified the nuclear magnetic resonance (NMR) and X-ray structures of rabbitprionproteinanditsmutants.Inadditionrabbits,horses,dogsandbuffaloes are immune to the degenerative conditions too, and by the end of 2013, except for buffalo their NMR molecular structures were identified too. The author has simulated how these proteins (including those of humans, mice and elks) change shape as their temperature and pH change. This book reports the clear change of rabbit prionprotein structure in highertemperatureand low pH conditionsand concludesthatsaltbridgesareclearlycontributingtothestructuralstabilityofrabbit prion protein so that this secret revealed could help in developing a treatment to priondiseases.PartIofthisbookwilldothemoleculardynamics(MD)simulations onallthespeciesmentionedabove. vii viii Preface X-ray crystallography is a powerful tool to determine the protein’s three- dimensional (3D) structure. However, it is time-consuming and expensive, and not all proteins can be successfully crystallised, particularly membrane proteins. Although NMR spectroscopy is indeed a very powerful tool in determining 3D structuresof membraneproteins, it is also time-consumingand costly. Due to the unstable,noncrystallineandinsolublenatureofsomeproteins,thetechnologiessuch asX-raycrystallography,NMRspectroscopy,dualpolarisationinterferometry,etc. cannot produce the 3D structures of these proteins. In this condition, molecular modelling (MM) might have been the only strategy to get the 3D structures. Neurodegenerativediseasesareamyloidfibrildiseases.Amyloidfibrilsareunstable, noncrystallineand insoluble.Thisbookwill also doMM forprionamyloidfibrils from the point of view of global optimisation (GO) algorithm computations. The MMworkswillbedoneinPartIIofthisbook. Thebookisidealforresearchersofnormalprionproteinsanddiseasedprionsas well as for teachersin biochemistry,biophysics, bioinformatics,material sciences andengineering,operationsresearch,appliedmathematics,theoreticalphysics,etc. Acknowledgments: All the MD computational results of this book were cal- culated on the Tango machines of VPAC (Victorian Partnership for Advanced Computing,www.vpac.org)andtheTamboandMerrimachinesofVLSCI(Victo- rianLifeSciencesComputationInitiative,www.vlsci.org.au)ofVictoria,Australia. IamverygratefultothestaffofVPAC,VLSCI,Melbourne,BallaratandSwinburne UniversitiesforalltheirgreathelpandsupporttomyprojectsnumberedpBall0004, pMelb0062andVR0063.Igratefullyacknowledgethehelponmoleculardynamics skillsfromcolleaguesDrs.TitmussSJandZhangJFandonglobal/localoptimisa- tion skills from Professor Bagirov AM et al. I wish to thank all those who have helped me in one way or another. This book systematically united my research results of recent years but without any research fund support; thus, I am in debt tomyfamily(especiallytomywifeVanessa)andacknowledgethemdeeply. Melbourne,Australia JiapuZhang June2015 Contents 1 BasicKnowledge ........................................................... 1 1.1 ProteinStructuresandFunctions.................................... 1 1.1.1 PrionProteinsandPrions .................................. 3 1.2 ProteinStructuralDynamicsandMolecularDynamics............ 4 1.3 MolecularModeling.................................................. 5 1.3.1 AlgorithmstoMinimizetheTotalPotential EnergyandtheLennard-JonesPotentialEnergy.......... 6 PartI MolecularDynamicsofPrionProteins 2 TheHomologyStructureandDynamics ................................ 17 2.1 MolecularModeling.................................................. 17 2.2 TheHomologyRabbitPrionProteinat500K...................... 18 2.3 MolecularDynamicsMethodsat300and450K................... 18 2.4 Resultsat450KandDiscussion..................................... 19 2.5 ConcludingRemarks................................................. 22 3 TheNMRStructureandDynamicsoftheWild-TypeandMutants.. 25 3.1 Overview.............................................................. 25 3.2 MaterialsandMethods............................................... 26 3.3 ResultsandDiscussion............................................... 26 3.4 AConcludingRemark ............................................... 28 4 Comparedwith the NMR Structure and Dynamics ofHumansandMice ....................................................... 29 4.1 Overview.............................................................. 29 4.2 MaterialsandMethodsfor300and450K.......................... 29 4.3 ResultsandDiscussionfor300and450K.......................... 30 4.4 ConcludingRemarksforthe300and450K........................ 36 4.5 MolecularDynamicsat350K....................................... 36 ix
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